Knitting method



Feb. 7, 1967 w. P. WARTHEN 3,302,431

KNITTING METHOD Original Filed Jan. 14, 1964 3 Sh$$t$-$h it l INVENTOR. WILLIAM P. WARTHEN ATTORNEY Feb. 7, 1967 w. P. WARTHEN 35 3 KNITTING METHOD Original Filed Jan. 14, 1964 5 Sheets-Sheet 2 K INVENTOR.

WILLIAM P. WARTHEN M WM ATTORNEY Feb. 7, 1967 W. P. WARTHEN KNITTING METHOD 5 Sheets-$heet 3 Original Filed Jan. 14, 1964 INVENTOR. WILLIAM P. WARTHEN 80w? WQW ATTORNEY United States Patent 4 Claims. (Cl. 66-125) This application is a divisional application of US. patent application Serial No. 337,576, filed January 14, 1964.

This invention relates to a new and novel apparatus and method of knitting and more particularly to a system to automatically maintain a preselected loop size in the material being knit.

Prior to this invention the knitting of fabric into cloth material was subject to many disadvantages which caused imperfections in the cloth due to variation in size of the loops in the material. These variations in loop size were caused by the change of rate that the knitting machine took the material being supplied thereto, the change of rate of the knitting machine being due to such factors as bent needles, stretch of the yarn being knit, imperfections in the knitting machine, moisture content of the yarn being knit, etc. In an attempt to maintain a constant feed rate in order to obtain constant pre-selected loop sizes in the yarn being knit, various prior art devices were employed to maintain the tension constant in the yarn being knit. These prior art devices worked to some satisfaction but were still objectionable due to the above-mentioned disadvantages.

Therefore, it is an object of this invention to provide a feed system for a knitting machine which will automatically maintain the loop size in the cloth being knit by controlling the feed rate of the yarn being supplied to the knitting machine.

A second object of the invention is to provide a feed system for a knitting machine which will automatically vary the yarn consumption rate of the knitting machine in response to a change in the rate of yarn take-up by the knitting machine.

A further object of the invention is to provide a feed system for a knitting machine which will automatically maintain a pre-selected loop size in the material being knit by controlling the feed rate of the yarn to be knit in response to the rate of the yarn being taken by the knitting machine.

A still further object of the invention is to provide a feed system for a knitting machine which will automatically maintain a pre-selected loop size in the material being knit by controlling the position of the yarn with respect to the needles in response to the rate of the yarn take-up by the knitting machine.

Another object of the invention is to provide a continuous in-line operation in which material from a roll can be continuously slit, compacted, and knit into a cloth material in which the loop size is substantially constant providing a quality knit material.

A still further object of the invention is to provide a high quality knit material in which the loop size is maintained substantially constant.

Other objects and advantages of the invention will be clearly apparent as the specification proceeds to describe the invention with reference to the accompanying drawings in which:

FIGURE 1 is a schematic representation of a knitting system employing the herein disclosed yarn feed control system;

FIGURE 2 is an exploded view of the sinker burr shown schematically in FIGURE 1;

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FIGURE 3 is a graphic representation of the sinker burr of FIGURES 1 and 2; and

FIGURE 4 is a modification of the yarn feed device of FIGURE 1.

For the purpose of illustration and explanation the herein disclosed invention describes the knitting of paper in a circular type knitting machine such as a Tompkins spring beard needle type employing a sinker burr. It is to be understood that other yarns such as cotton, wool, synthetics, etc., can be employed if desired. Furthermore, other types of knitting machines, such as a latch needle type employing a stitch cam, can be used within the scope of the invention.

Looking now to FIGURE 1 the reference numeral 10 represents a circular spring beard knitting machine employing a sinker burr assembly 12 to supply paper yarn Y thereto. As shown, the process of knitting the paper yarn is continuous in that an unslit roll of paper 14 is fed through a pair of slitting rolls 16 by a pair of feed rolls 18 to slit the paper roll into a plurality of strips 20. Each of the strips 20 are delivered to a compacting means 22 through a pair of guide pins 24 on guide member 26. From the compacting means 22 the paper yarn Y is delivered to the sinker burr assembly 12 to be knit into a paper fabric. Only one compacting member 22 and one sinker burr assembly 12 are shown for the sake of illustration, but it is understood that such devices will be provided for each strip of paper 2% slit by slitting rolls 16. It is further understood that the paper strips 20 slit from the paper roll 14 can all be supplied to one knitting machine or can be supplied to a plurality of knitting machines.

In the preferred form of the invention shown in FIG- URE 1, it is necessary to correlate the operation of the slitting rolls 16, the compacting means 22, the sinker burr assembly 12 and the circular knitter 10. This correlation can be accomplished in any suitable manner schematically represented by drive connections 28 and 30 geared to the circular knitter It} by gears 32 and 34 which is driven at a constant rate by a drive means (not shown). The speed of feed rolls 18 is correlated to the speed of gears 36 and 38 through proper selection of gears 40, 42, 44, 4-6, 48, 50, 52 and 54 to provide a pre-selected fixed tension in the paper strip 20 between the feed rolls 18 and the compacting means 22. The speed of drive gears 36 and '38 is also correlated to the rate of take-up by the circular knitter so that the tension in. yarn Y between the compacting means and the sinker burr assembly 12 is within a pre-selected range. A slip clutch 56 is provided in the drive to gears 36 and 3 8 so that if an excessive torsional force is exerted on the drive to the gears 36 and 38 the slip clutch will slip and thereby not transmit the excessive force on the gears 36 and 38 and cause breakage of the paper strip 20 being compacted due to increased pull on the paper being compacted.

In the preferred form of the invention the compacting means 22 is a paper folder for converting the paper strip into flat, folded twistless paper yarn. Folder 22 is similar to that disclosed in copendingSerial No. 264,375, supra. Briefly, the paper strip is passed consecutively over a guide roll 58, a first folding roll 60 which folds the edges of the paper inward to the centerline of the strip 20, a second folding roll 62 which folds the strip 20 double on the centerline thereof, a pair of creasing rolls 64 to crease the final fold, and drive gears 36 and 38 which impart a transverse edge-to-edge crease across the twice folded strip 20 to provide a folded twistless paper yarn Y.

As pointed out previously compacting means .provide a constant positive feed of yarn to the sinker burr assern bly 12. The folder herein described is merely illustrative since it is preferred to knit paper yarn but the only basic criteria of the invention is that the means 22 provide a substantially constant positive feed of the yarn to the sinker burr assembly.

Looking now at FIGURES 1 and 2 and more particularly to FIGURE 2, the sinker burr assembly is shown in detail. The overall sinker burr assembly 12 is supported on sinker burr support member 66 supported in any suitable manner adjacent the knitter to correctly position the sinker burr 68 adjacent the spring beard needles 70 of the circular knitter 10. Welded or otherwise secured to the sinker burr support member 66 is a keyshaped member 72 to which is welded a spindle or rod member 74. Spindle 74 projects through a conical sleeve member 76 and is secured in an opening (not shown) in the center of collar 78 welded or otherwise secured to the reinforcing support arm 80 which in turn is secured to the collet 82 by any suitable means such as screw 84.

Opening 86 in the conical sleeve member 76 is drilled off-center for purposes hereinafter described. Eccentrically mounted conical sleeve member 76 is made of Delrin or other suitable material which will allow the sinker burr 68 telescoped thereon to freely rotate thereon. Preferably the sinker burr 68 has a tapered opening 87 therein which will conform to the conical outer surface of the sleeve member 76. Collar member 88 also telescopes the sleeve member 76 and is secured thereto by set screws 90. Collar member 88 abuts sinker burr 68 and secures same against the circular flange 92 of the sleeve member 76. Welded or otherwise secured to the.

collar member 88 is an extended lever arm 94 with a pulley 96 mounted at the end thereof in a manner so as to be capable of rotation separate from the rotation of the lever arm 94.

It should be noted that sleeve member 76, sinker burr 68, collar member 88 and lever arm 94 can be rotated eccentrically as a unit on spindle 74 and at the same time sinker burr 68 is free to rotate concentrically on the conical sleeve member 76 independent of the unit rotation on the spindle.

Looking at FIGURE 1 the paper yarn Y is fed to the sinker burr 68 from the compacting means 22 through a guide member 96. From the guide member the yarn Y passes through a guide member 98, around the pulley 96 and through guide member 100 to form a slack loop L for reasons hereinafter described. From the guide member 100 the yarn is delivered to the sinker burr 68 through a further guide member 102.

In normal operation the sinker burr assembly 12 is adjusted to provide an approximate desired loop size. The sinker burr 68 operates in a manner well known in the art in that the yarn Y is carried by the sinker burr 68 and is forced up into the spring beard of the needles 70 as the needles move past the sinker burr 68 on rotation of the circular knitter. In normal fashion the beard part of the needles 70 will move between the burrs of the sinker burr to form the knitting loop. It can be seen under normal tension that the relative position of the sinker burr to the axis of rotation of the circular knitter will determine the size of the loop being knit. In other words the greater the projection of the sinker burr into the path of rotation of circular knitter the larger the loops being knit and the more yarn being used and vice versa.

Looking now to FIGURES 1-3 and in particular at FIGURE 3 the new and improved automatic feed back control will be explained. In FIGURE 3 the circle 104 represents the axis of rotation of the conical sleeve member 86. The dot 106 represents the axis of rotation of the sinker burr 68 on the conical sleeve member. The normal path of rotation of the sinker burr 68 and the normal position of the lever arm 94 are represented in solid lines by the reference numbers 108 and 110 respectively. The normal path of the needles on the circular knitting machine 10 is denoted by reference number 112. The graphic representation in FIGURE 3 has been exaggerated for the purpose of explanation. In actual operation the loop size is continuously being minutely changed and, therefore, the variation in the slack loop will not vary as greatly in length as graphically represented.

Under normal conditions the path of the sinker burr 68 and the lever arm 94 will be in the solid line position denoted by 108 and and thereby providing a loop of pre-determined size. Assume now that the circular knitting machine is taking the yarn faster than desired due to some change in the yarn characteristics, etc., causing the loops in the knitted material to become larger than desired. Since the compacting means 22 is supplying a constant feed of yarn this change in take-up rate by the circular knitter will cause the slack loop L to shorten, as denoted by reference numeral 114, due to an increase in the amount of yarn being taken by the knitter. This shortening of the slack loop causes the lever arm 94 to rotate counterclockwise to the position denoted 116 in dotted lines. Rotation of lever arm 94 to the dotted line position 116 will cause the sleeve member 76 to rotate counterclockwise about the eccentric axis 104 thereby moving the axis of rotation 106 of the sinker burr counterclockwise to the position indicated so that the path of rotation of the sinker burr 68 will assume the position indicated by the dotted lines 118. It can readily be seen that the axis of rotation of the sinker burr has been pulled back from the path of rotation of the circular knitter, thereby reducing the amount of yarn taken by the circular knitter since less yarn is forced up into the spring beard needles 70 by the sinker burr 68, thus reducing the loop size and the amount of yarn being taken by the knitting machine.

Conversely, assume that the circular knitter is taking less than a desired amount of yarn resulting in small loops being knit into the material. Then, since the compacting means 22 is supplying yarn at a constant rate of feed of the yarn to the knitting machine will tend to decrease allowing the slack loop, indicated as 118, to increase in size, and allowing the lever arm 94 to rotate clockwise and assume a position as indicated by 120 in dotted lines. Rotation of the lever 94 in a clockwise direction will rotate conical sleeve member 76 clockwise on its eccentric axis thereby rotating the axis of rotation 106 of the sinker burr 68 clockwise to the position 120 indicated in FIGURE 3. The path of rotation of the sinker burr 68 will then assume a path as indicated in dotted lines as 122. It can now be seen that the path of rotation of the sinker burr has been projected further into the path of rotation of the circular knitter causing the spring beard needles to take more yarn resulting in an increase in the rate of feed of the yarn Y to the knitting machine and a resulting increase in loop size.

FIGURE 4 shows a modification of the invention of FIGURES 13. Like reference numerals will refer to like components. In the modification of FIGURE 4, the slitting mechanism has been eliminated and instead the paper to be compacted is a roll of paper strip 124 mounted and supported on the compacting means 22 by suitable guides 126, 128, and 132. As in the preferred embodiment of FIGURES 1-3, the gears 36 and 38 are preferably driven to supply a continuous supply of yarn Y to the sinker burr assembly 12 and the circular knitter 10.

It is further contemplated within the scope of the invention that the slack loop type of feed back compensator can be employed to automatically adjust the stitch cam on a latch needle type knitting machine. The depth of the stitch cam can be controlled by a lever arrangement such as that disclosed which will be moved by changes in the slack of the yarn as it moves from a positive feed device to the needles.

The herein disclosed feed back compensator automatically maintains loop size in material being knit directly responsive to a change of loop size by the knitting machine which may be due to imperfections in the yarn being knit, stretchiness of yarn, bent needles on the knitting machine, change of atmospheric conditions in the work area, or other conditions affecting the characteristics of the yarn which cannot readily be controlled.

Inherently in the use of the herein disclosed feed back compensator a better quality of knit fabric will be obtained because of the constant and even loop sizes. Furthermore, the herein disclosed control system provides a system which eliminates waste and excess cost since the loop size can be controlled much closer allowing the tightening of specifications, thereby eliminating the necessity of overshooting the requirements on weight of any desired fabric to insure that the end product completely fulfills the desired conditions.

Further, the herein disclosed knitting system operates exceptionally well in in-line operation since the feed back compensator will automatically adjust for variations in the yarn being knit. Such in-line operation provides the advantage that 'all the strips of yarn being knit will run out at the same time. This is true whether all the yarn being knit is from one original supply roll or whether it is from a single roll mounted on a common mandrel with other yarn being knit.

Furthermore, the herein disclosed knitting system allows the knitting of novelty fabrics without drastic changes in the system to knit such fabrics the relative speeds of the constant feed device and the knitter can be altered to provide different loop effect and the feed rate compensator Will automatically maintain this desired effect until the relative speeds of the constant feed device and the knitter are again altered.

Although I have described specifically the preferred embodiments of my invention, I contemplate that changes may be made without departing from the scope or spirit of my invention and I desire to be limited only by the scope of the claims.

That which is claimed is:

1. A process for continuously forming knit material from a roll of unslit fabric on a knitting machine having a circular row of united needles comprising the steps of continuously slitting a roll of unslit fabric into strips, separating the strips of fabric while maintaining the strips in integral connection with the roll of fabric, supplying said strips to a loop forming member of a knitting machine and forming a loop thereby in one needle of said row of needles and changing the position. of said loop forming member relative to said knitting machine in response to a change of yarn take-up by the knitting machine to vary the size of loops subsequently being formed in said needles by said loop forming member.

2. The process of claim 1, wherein said roll of unslit fabric is paper.

3. The process of claim 1, wherein said strips of fabric are supplied to said loop forming member at a substantially constant rate.

4. The process of claim 3, wherein said roll of unslit fabric is paper.

References Cited by the Examiner UNITED STATES PATENTS 365,244 6/1877 Couell et a1 66105 3,028,738 4/1962 Rosen 66-54 3,193,904 7/1965 Evans et al 28--1 3,214,943 1/1965 Marks 66125 FOREIGN PATENTS 576,001 3/ 1946 Great Britain. 861,880 3/1961 Great Britain.

MERVIN STEIN, Primary Examiner.

R. FELDBAUM, Examiner. 

1. A PROCESS FOR CONTINUOUSLY FORMING KNIT MATERIAL FROM A ROLL OF UNSLIT FABRIC ON A KNITTING MACHINE HAVING A CIRCULAR ROW OF UNITED NEEDLES COMPRISING THE STEPS OF CONTINUOUSLY SLITTING A ROLL OF UNSLIT FABRIC INTO STRIPS, SEPARATING THE STRIPS OF FABRIC WHILE MAINTAINING THE STRIPS IN INTEGRAL CONNECTION WITH THE ROLL OF FABRIC, SUPPLYING SAID STRIPS TO A LOOP FORMING MEMBER OF A KNITTING AMCHINE AND FORMING A LOOP THEREBY IN ONE NEEDLE OF SAID ROW OF NEEDLES AND CHANGING THE POSITION OF SAID LOOP FORMING MEMBER RELATIVE TO SAID KNITTING MACHINE IN RESPONSE TO A CHANGE OF YARN TAKE-UP BY THE KNITTING MACHINE TO VARY THE SIZE OF LOOPS SUBSEQUENTLY BEING FORMED IN SAID NEEDLES BY SAID LOOP FORMING MEMBER. 